CN115447254B

CN115447254B - High-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED

Info

Publication number: CN115447254B
Application number: CN202211290463.7A
Authority: CN
Inventors: 林洪玉
Original assignee: Foshan Shanmo Inorganic Materials Co ltd
Current assignee: Foshan Shanmo Inorganic Materials Co ltd
Priority date: 2022-10-21
Filing date: 2022-10-21
Publication date: 2023-09-29
Anticipated expiration: 2042-10-21
Also published as: CN115447254A

Abstract

The invention relates to the technical field of fireproof plate lamination, and discloses a high-efficiency lamination auxiliary device for a honeycomb core fireproof plate, which comprises a bottom plate, wherein a supporting rod is arranged on the rear side of the bottom plate, a control panel is arranged in the middle of the supporting rod, and strip-shaped blocks are uniformly arranged at the bottom of the front end of the supporting rod; this high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED uses through the cooperation of bar block structure and drum structure, during the use, automatically controlled expansion block's the downmovement speed is faster than automatically controlled expansion plate, thereby lead to automatically controlled expansion block earlier with the panel contact of bottom direction, automatically controlled expansion block stops to move down and press fixed panel position this moment, afterwards when automatically controlled expansion plate moves down and after the panel contact, automatically controlled expansion plate does not stop to move down this moment, so along with constantly extending and with the movable mounting of circle axle, make the automatically controlled expansion plate that constantly extends move to the both sides direction of keeping away from the bar block gradually, the cooperation drum, with this panel that presses the needs lamination, reach the effect of accurate pressing the panel according to actual need.

Description

High-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED

Technical Field

The invention relates to the technical field of fireproof plate lamination, in particular to efficient lamination auxiliary equipment for a honeycomb core fireproof plate.

Background

The fireproof honeycomb board is a high-grade, fireproof and environment-friendly sandwich structure composite material, metal aluminum is used as a panel, a fireproof board is arranged below the sandwich structure composite material, an aluminum honeycomb core is used as a core material, a regular hexagonal natural honeycomb is a prominent product of the beehives, and the honeycomb structure is used as the core material of the sandwich structure and is a great achievement of human bionics application.

In the manufacturing process of the fireproof plate, compression molding is an important link, in the compression molding process, firstly, adhesive is smeared on the surface of a bottom plate, then, a top plate needing compression molding is placed on the surface of the bottom plate, and then, the top plate is pressed by a machine, in the compression process, because the shapes and the sizes of the plates are different, the compression device is too long or too short, the compression of the upper plate and the lower plate is not facilitated, meanwhile, in the compression process, the compression device is extremely easy to adhere fine impurity dust and the like existing on the surface of the plate, if the compression device is not cleaned timely, the pits are easily formed on the surface of the plate because of the fine impurities, so that the quality of the plate is affected, meanwhile, in the compression process, the adhesive between the upper plate and the lower plate is easy to leak from the edge of the plate, and common manufacturers adopt manual scraping grooves to scrape and collect the oozed adhesive, in the mode is not only low in efficiency, but also easy to scrape and collect the impurities between the plates together, so that the collected adhesive cannot be used, and waste is formed.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides high-efficiency lamination auxiliary equipment for a honeycomb core fireproof plate, which has the advantages of accurately pressing the plate according to actual needs, automatically cleaning impurity dust on the surface of the plate in the pressing process, automatically collecting the oozing adhesive in the pressing process, removing the impurity dust in the collected adhesive, and improving the recycling rate of the adhesive, and solves the problems that a general machine cannot accurately press the plate according to actual needs, the quality of the pressed plate is influenced by the impurity dust in the pressing process, the oozing adhesive in the pressing process cannot be timely collected, and the collected oozing adhesive cannot be recycled.

(II) technical scheme

In order to achieve the purposes of precisely pressing the plate according to actual needs, automatically cleaning impurity dust on the surface of the plate in the pressing process, automatically collecting the adhesive oozing in the pressing process and removing the impurity dust in the collected adhesive, and improving the recycling rate of the adhesive, the invention provides the following technical scheme: the utility model provides a high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED, which comprises a base plate, the rear side of bottom plate is provided with branch, the middle part of branch is provided with control panel, the bottom of branch front end evenly is provided with bar block, the top of the left and right sides of bar block all is provided with the round axle, the bottom of round axle is provided with automatically controlled expansion plate, both sides all are provided with the guide arm around automatically controlled expansion plate bottom, the middle part of front and back both sides guide arm is provided with the drum, bar groove I has evenly been seted up to the surface of drum, bar groove I's inner chamber is provided with the telescopic strip, one side that bar rod kept away from the bar block is provided with the connecting rod, the opposite side of connecting rod is provided with the bar, the middle part of bar plate is provided with the spring, bar groove II's inner chamber's the inner wall evenly is provided with the resistance piece, bar groove II inner chamber's bottom is provided with the slide bar, the bottom of slide bar is provided with the push pedal, one side that the push pedal is close to the drum is provided with the bar, the middle part of bar block bottom is provided with automatically controlled expansion block, square groove bottom all around, the bottom of square groove's inner chamber lateral wall has evenly been seted up the filtration pore, bar groove's outside lateral wall, bar groove's inner chamber lateral wall has evenly been seted up, bar groove's inner chamber has evenly been set up the bottom plate, bar groove's left side has the bottom plate and square bottom plate is provided with the bottom plate, the bottom plate and square bottom plate is provided with the bottom plate and the bottom plate is all right sides.

Preferably, the control panel passes through electric wire and automatically controlled expansion plate and automatically controlled expansion block electric connection, thereby during the use, the staff sets up a plurality of bar blocks simultaneous working on control panel, the bar block during operation, automatically controlled expansion plate and automatically controlled expansion block move down simultaneously, and automatically controlled expansion block's the speed of moving down is faster than automatically controlled expansion plate, with this board contact with the bottom direction earlier of utilizing automatically controlled expansion block, automatically controlled expansion block stops to move down and press fixed panel position this moment, afterwards after automatically controlled expansion plate moves down and contacts with panel, automatically controlled expansion plate does not stop to move down this moment, so along with constantly extending and with the movable mounting of circle axle, make the automatically controlled expansion plate of constantly extending move to the both sides direction of keeping away from the bar block gradually, cooperate the drum, with this board that presses needs the lamination.

Preferably, the top of push pedal passes through the top movable mounting of spring and strip shaped plate inner chamber, the inside telescopic structure that is of resistance piece, when not using, the position of bar is located the bottom of homonymy direction telescopic strip, thereby when the drum rolls to the one side of keeping away from the bar piece, cylinder surface movable mounting constantly presses the bar at the telescopic strip of a bar groove inner chamber, make bar and push pedal constantly move down, so that the bottom of push pedal is in contact with panel surface all the time when the drum is to keeping away from bar piece one side removal, the inclined plane design of cooperation push pedal bottom, with this clean panel surface earlier before the drum rotates to press, prevent to press the in-process because impurity dust etc. that panel surface exists influences the quality of panel after pressing.

Preferably, the shape and size of the sliding block are matched with the shape and size of the inner cavity of the square chute, and the sliding block passes through the side wall of the bottom plate to be electrically connected with the control panel through an electric wire, so that when the square chute is used, after the lamination of the plates is finished, the control panel controls one end of the sliding block in the square chute on the same side to move towards the other end, the scraping plate is driven to move towards the other end at one end of one side of the square chute, and the scraping plate is utilized to scratch the adhesive possibly adhered to the inner wall of the square chute to one position, so that the subsequent adhesive is convenient to collect.

Preferably, the discharge hole runs through the side wall and the collection cavity around the communication bottom plate, the horizontal position of the same side collection cavity one end is lower than the horizontal position of the other end, the discharge hole is arranged on one side of the lower collection cavity, the filter hole runs through the square groove and the collection cavity, so that when the plate laminating machine is used, the excessive adhesive produced in the plate laminating process flows into the square groove along the surface of the bottom plate, impurities in the adhesive are filtered through the filter hole and flow into the collection cavity, the inclined design of the collection cavity is matched, the adhesive flowing into the collection cavity gradually flows to one side of the lower horizontal position, after the use is finished, the blocking block can be opened, and the adhesive can flow out of the discharge hole conveniently for collection.

Preferably, the heating plate is electrically connected with the control block through a wire, and the position of the inner cavity at the bottom of the bottom plate is located on one side of the inner wall of the square groove opposite to the inner wall of the collecting cavity, so that when the heating plate works, the heating plate is started, the temperature inside the square groove and the collecting cavity rises, so that the adhesive flowing into the inner cavity of the square groove and the collecting cavity is not in a viscous solidification state, the adhesive is convenient to pass through the filter hole and the discharge hole, and the adhesive is convenient to collect.

(III) beneficial effects

Compared with the prior art, the invention provides the efficient lamination auxiliary equipment for the honeycomb core fireproof plate, which has the following beneficial effects:

1. this high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED uses through the cooperation of bar block construction and drum structure, during the use, the automatically controlled expansion bend of bar block bottom and the automatically controlled expansion bend of bar block left and right sides remove to the bottom plate direction simultaneously, in-process of removal, because control panel passes through electric wire and automatically controlled expansion bend electric connection, automatically controlled expansion bend's the speed of moving down is faster than automatically controlled expansion bend, thereby lead to automatically controlled expansion bend earlier with the panel contact of bottom direction, automatically controlled expansion bend stops to move down and press fixed panel position this moment, afterwards when automatically controlled expansion bend moves down with the panel contact after, automatically controlled expansion bend does not stop to move down this moment, so along with constantly extend and with the movable mounting of circle axle, make the automatically controlled expansion bend that constantly extends move to the both sides direction of keeping away from the bar block, cooperate the drum, with press the panel that needs the lamination, reach the accurate effect of pressing the panel according to actual need.

2. This high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED uses through the cooperation of push pedal structure and bar structure, the cylinder is carrying out the in-process of laminating to the panel, utilize the top of push pedal to pass through the top movable mounting of spring and bar inner chamber, the inside scalable structure that is of resistance piece, when not using, the position of bar is located the bottom of the flexible strip of homolateral direction, thereby when the cylinder rolls to the one side of keeping away from the bar piece, with left side drum description, the anticlockwise rotation of cylinder makes cylinder surface movable mounting press the bar in the flexible strip of bar slot one inner chamber constantly, result in bar and push pedal constantly move down, so that the bottom of push pedal is to the cylinder is to keeping away from bar one side and move time with the panel surface contact, the inclined plane design of cooperation push pedal bottom, so that the panel surface cleans earlier before the cylinder rotates to press, prevent to press the in-process because impurity dust etc. that panel surface exists influence the quality of panel after pressing, when the cylinder reverse movement retracts, the cylinder clockwise rotation, make the flexible strip transfer the bar move up, result in the push pedal with in groove two, cooperation resistance piece makes the slide bar move down soon, can's the bottom of the automatic place of the contact with the panel surface of the bottom of the panel surface is not in the place after the contact with the top of the dust of the panel in the process of moving down.

3. This high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED uses through the cooperation of scraper blade structure and row material hole structure, after the device carries out the lamination step, utilize the shape size of slider and the shape size phase-match of square spout inner chamber, the slider passes the lateral wall and the control panel electric connection of bottom plate through the electric wire, thereby after carrying out the lamination to panel, control panel controls the one end in the square spout of homonymy and removes to the other end, thereby drive the scraper blade and remove to the other end in one end of square groove one side, utilize the scraper blade to scrape the gluing agent that probably adheres at square groove inner wall, be convenient for follow-up gluing agent's collection, utilize the horizontal position of homonymy collection chamber one end to be less than the horizontal position of other end simultaneously, the row material hole is seted up in the lower one side of collection chamber, the filtration pore runs through square groove and collection chamber, thereby during the use, the surplus gluing agent that produces in the panel lamination process flows to the square inslot along the surface of bottom plate, again through the slope design of filtration pore inflow collection chamber, gluing agent in the collection chamber flows to the lower one side of horizontal position gradually, utilize the scraper blade to the gluing agent in the square groove one end, use end, can open the gluing agent that can reach the automatic sealing effect in the collection from the laminating hole after the end.

4. This high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED uses through the cooperation of filtration pore structure and heating plate structure, during the use, utilizes the scraper blade to remove to the other end along one end in the square groove of homonymy, cooperates the heating effect of hot-melt back adhesive through the filtration pore inflow collection intracavity of scraper blade in removal in-process to scrape the one corner to the square groove with the impurity dust that can't wear the filtration pore, be convenient for follow-up collection clearance of impurity dust reaches the impurity dust that contains in the adhesive after the rejection is collected, improves the effect of adhesive reuse rate.

Drawings

FIG. 1 is a right side view of the overall structure of the present invention;

FIG. 2 is a schematic view of the bottom appearance of the overall structure of the present invention;

FIG. 3 is a schematic view of the rear side of the overall structure of the present invention;

FIG. 4 is a schematic front view of the overall structure of the present invention;

FIG. 5 is a schematic view of the left collection chamber of the overall structure of the present invention;

FIG. 6 is a bottom cross-sectional view of the overall structure of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 3A according to the present invention;

FIG. 8 is a schematic diagram of the structure of FIG. 3B according to the present invention;

FIG. 9 is a schematic view of the structure of FIG. 4 at C in accordance with the present invention;

FIG. 10 is a schematic view of the structure of FIG. 5D according to the present invention;

fig. 11 is a schematic view of the structure of fig. 5 at E according to the present invention.

In the figure: 1. a bottom plate; 2. a support rod; 3. a control panel; 4. a bar block; 5. a circular shaft; 6. an electric control expansion plate; 7. a guide rod; 8. a cylinder; 9. a first strip-shaped groove; 10. a telescoping strip; 11. a connecting rod; 12. a strip-shaped plate; 13. a spring; 14. a second strip-shaped groove; 15. a resistance block; 16. a slide bar; 17. a push plate; 18. an electric control telescopic block; 19. a square groove; 20. filtering holes; 21. square chute; 22. a scraper; 23. a slide block; 24. a collection chamber; 25. a discharge hole; 26. a blocking block; 27. a pull ring; 28. a control block; 29. a wire; 30. a heating plate; 1701. a bar.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-11, a honeycomb core fireproof plate efficient lamination auxiliary device comprises a bottom plate 1, a supporting rod 2 is arranged at the rear side of the bottom plate 1, a control panel 3 is arranged in the middle of the supporting rod 2, bar-shaped blocks 4 are uniformly arranged at the bottom of the front end of the supporting rod 2, round shafts 5 are arranged at the tops of the left side and the right side of the bar-shaped blocks 4, an electric control expansion plate 6 is arranged at the bottom of the round shafts 5, the control panel 3 is electrically connected with the electric control expansion plate 6 and the electric control expansion plate 18 through wires, therefore, when in use, a worker sets a plurality of bar-shaped blocks 4 on the control panel 3 to work simultaneously, when the bar-shaped blocks 4 work, the electric control expansion plate 6 and the electric control expansion plate 18 move downwards simultaneously, the moving speed of the electric control expansion plate 18 is faster than that of the electric control expansion plate 6, so that the electric control expansion plate 18 is firstly contacted with a plate in the bottom direction, at the moment, the electric control expansion plate 18 stops moving downwards and presses a fixed plate position, then when the electric control expansion plate 6 moves downwards to contact with the plate, the electric control expansion plate 6 does not stop moving downwards at the moment, so as to gradually extend and movably mount with the round shaft 5, the electric control expansion plate 6 which continuously extends gradually moves towards the directions of two sides far away from the strip-shaped block 4 and is matched with the cylinder 8 to press the plate to be laminated, the front side and the rear side of the bottom of the electric control expansion plate 6 are respectively provided with the guide rods 7, the middle parts of the guide rods 7 at the front side and the rear side are respectively provided with the cylinder 8, the outer surface of the cylinder 8 is uniformly provided with the strip-shaped groove I9, the inner cavity of the strip-shaped groove I9 is provided with the expansion strip 10, one side of the guide rod 7 far away from the strip-shaped block 4 is provided with the connecting rod 11, the other side of the connecting rod 11 is provided with the strip-shaped plate 12, the middle part of the strip-shaped plate 12 is provided with the spring 13, the left side and the right side of the inner cavity of the strip-shaped plate 12 is respectively provided with the strip-shaped groove II 14, the inner wall of the strip-shaped groove II 14 is uniformly provided with the resistance block 15, the bottom of bar groove two 14 inner chamber is provided with slide bar 16, the bottom of slide bar 16 is provided with push pedal 17, one side that push pedal 17 is close to drum 8 is provided with bar 1701, the middle part of bar 4 bottom is provided with automatically controlled telescopic block 18, square groove 19 has been seted up all around to bottom plate 1 bottom, filter screen hole 20 has evenly been seted up to the bottom of square groove 19, square spout 21 has been seted up to the outside lateral wall of square groove 19's inner chamber, the inner chamber of square groove 19 is provided with scraper blade 22, one side that scraper blade 22 is close to square spout 21 is provided with slider 23, collecting chamber 24 has evenly been seted up all around bottom plate 1, discharge hole 25 has been seted up to one side of collecting chamber 24, the inner chamber of discharge hole 25 is provided with blocking piece 26, one side that blocking piece 26 kept away from bottom plate 1 side is provided with pull ring 27, the middle part of bottom plate 1 bottom inner chamber is provided with control block 28, upper left side and right side below of control block 28 all is provided with wire 29, all be provided with hot plate 30 around the bottom plate 1 bottom inner wall.

When the electric control telescopic block 18 at the bottom of the bar block 4 and the electric control telescopic plates 6 at the left side and the right side of the bar block 4 move towards the bottom plate 1 simultaneously, in the moving process, because the control panel 3 is electrically connected with the electric control telescopic plate 6 and the electric control telescopic block 18 through wires, the downward moving speed of the electric control telescopic block 18 is faster than that of the electric control telescopic plate 6, so that the electric control telescopic block 18 is firstly contacted with a plate in the bottom direction, at the moment, the electric control telescopic block 18 stops moving downwards and presses the position of a fixed plate, after the electric control telescopic plate 6 moves downwards to be contacted with the plate, at the moment, the electric control telescopic plate 6 does not stop moving downwards, so as to continuously extend and movably mounted with the circular shaft 5, the electric control telescopic plate 6 continuously extends gradually moves towards the two sides far away from the bar block 4, and is matched with the cylinder 8, so that the plate to be laminated is pressed.

In the embodiment, a high-efficient lamination auxiliary equipment of honeycomb core fire-proof plate, comprising a base plate 1, the rear side of base plate 1 is provided with branch 2, the middle part of branch 2 is provided with control panel 3, the bottom of branch 2 front end evenly is provided with bar 4, the top of the left and right sides of bar 4 all is provided with circular shaft 5, the bottom of circular shaft 5 sets up automatically controlled expansion plate 6, both sides all are provided with guide arm 7 around the bottom of automatically controlled expansion plate 6, the middle part of front and back both sides guide arm 7 is provided with drum 8, drum 8's surface evenly has offered bar slot one 9, bar slot one 9's inner chamber is provided with telescopic strip 10, bar 7 is provided with connecting rod 11 on one side of keeping away from bar 4, the opposite side of connecting rod 11 is provided with bar 12, the middle part of bar 12 is provided with spring 13, bar 12's inner chamber left and right sides all has offered bar slot two 14, the inner wall of bar slot two 14 evenly is provided with resistance piece 15, the bottom of bar 16 is provided with push pedal 17, one side of push pedal 17 is close to drum 8, bar 17 is provided with bar 17, bar 17's top is provided with bar 17, bar 1708 is in the same direction of bar 1708 and the top of bar 1708 is constantly being moved to bar slot 10 in the same direction as bar-shaped inner chamber 10 when bar 1708 is installed to bar 1708, bar 1708 is in the front of bar 1708, the top is not moving down, the bar 1708 is contacted with bar 1708, the top is in the direction of bar 1708, and is contacted with bar 1708, thereby when the bar is not moving down surface is contacted with bar 1708, the quality of panel is influenced after pressing because impurity dust etc. that the panel surface exists in the pressing process is prevented, the middle part of bar 4 bottom is provided with automatically controlled telescopic block 18, square groove 19 has been seted up all around to bottom plate 1 bottom, filtration pore 20 has evenly been seted up to the bottom of square groove 19, square spout 21 has been seted up to the outside lateral wall of the inner chamber of square groove 19, the inner chamber of square groove 19 is provided with scraper blade 22, one side that scraper blade 22 is close to square spout 21 is provided with slider 23, collecting chamber 24 has evenly been seted up around bottom plate 1, discharge hole 25 has been seted up to one side of collecting chamber 24, the inner chamber of discharge hole 25 is provided with blocking piece 26, one side that blocking piece 26 kept away from bottom plate 1 side is provided with pull ring 27, the middle part of bottom plate 1 bottom inner chamber is provided with control block 28, upper left side and right side below of control block 28 all are provided with wire 29, all be provided with hot plate 30 all around bottom plate 1 bottom inner wall.

When the device is used, in the process of laminating the plates, the top of the push plate 17 is movably installed on the top of the inner cavity of the strip-shaped plate 12 through the spring 13, the inside of the resistance block 15 is of a telescopic structure, when the device is not used, the position of the strip-shaped rod 1701 is located at the bottom of the telescopic strip 10 in the same side direction, so that when the cylinder 8 rolls towards the side far away from the strip-shaped block 4, the left cylinder 8 is used for describing, the cylinder 8 rotates anticlockwise, the telescopic strip 10 movably installed on the inner cavity of the first cylinder 8 presses the strip-shaped rod 1701, the strip-shaped rod 1701 and the push plate 17 are continuously moved downwards, so that the bottom of the push plate 17 is always contacted with the surface of the plate when the cylinder 8 moves towards the side far away from the strip-shaped block 4, the slope design of the bottom of the push plate 17 is matched, the surface of the plate is cleaned before the cylinder 8 rotates to prevent impurity dust and the like existing on the surface of the plate from affecting the quality of the plate after pressing, when the cylinder 8 moves backwards and retracts, the cylinder 8 moves forwards, the telescopic strip 10 moves the rod 1 upwards, the push plate 17 and the slide rod 16 are caused to move downwards on the strip-shaped rod 1701, the bottom of the push plate 17 and the slide bar 16 is not contacted with the bottom of the strip-shaped plate 15 after the second cylinder 16 moves forwards, and the bottom of the top of the plate is not contacted with the bottom of the strip-shaped plate 15 immediately.

In the embodiment, the high-efficiency lamination auxiliary equipment for the honeycomb core fireproof plate comprises a bottom plate 1, a supporting rod 2 is arranged at the rear side of the bottom plate 1, a control panel 3 is arranged at the middle part of the supporting rod 2, a strip-shaped block 4 is uniformly arranged at the bottom of the front end of the supporting rod 2, round shafts 5 are arranged at the tops of the left side and the right side of the strip-shaped block 4, electric control expansion plates 6 are arranged at the bottoms of the round shafts 5, guide rods 7 are arranged at the front side and the rear side of the bottoms of the electric control expansion plates 6, a cylinder 8 is arranged at the middle part of the guide rods 7 at the front side and the rear side, a strip-shaped groove I9 is uniformly formed on the outer surface of the cylinder 8, an expansion strip 10 is arranged in an inner cavity of the strip-shaped groove I9, a connecting rod 11 is arranged at one side of the guide rod 7 far from the strip-shaped block 4, a strip-shaped plate 12 is arranged at the other side of the connecting rod 11, a spring 13 is arranged at the middle part of the strip-shaped plate 12, a strip-shaped groove II 14 is uniformly arranged at the left side and right side of the inner cavity of the strip-shaped plate 12, a resistance block 15 is uniformly arranged on the inner wall of the strip-shaped groove II 14, the bottom of the inner cavity of the second bar-shaped groove 14 is provided with a sliding bar 16, the bottom of the sliding bar 16 is provided with a push plate 17, one side of the push plate 17 close to the cylinder 8 is provided with a bar-shaped bar 1701, the middle part of the bottom of the bar-shaped block 4 is provided with an electric control telescopic block 18, the periphery of the bottom plate 1 is provided with square grooves 19, the bottom of each square groove 19 is uniformly provided with a filtering hole 20, the outer side wall of the inner cavity of each square groove 19 is provided with a square chute 21, the inner cavity of each square groove 19 is provided with a scraping plate 22, one side of the scraping plate 22 close to the square chute 21 is provided with a sliding block 23, the shape and the size of the sliding block 23 are matched with the shape and the size of the inner cavity of the square chute 21, the sliding block 23 passes through the side wall of the bottom plate 1 through an electric wire to be electrically connected with the control panel 3, so that when the plate lamination is finished, the control panel 3 controls one end of the sliding block 23 in the square chute 21 at the same side to move to the other end, the scraper 22 is driven to move towards the other end at one end of one side of the square groove 19, the scraper 22 is utilized to scratch the adhesive possibly adhered to the inner wall of the square groove 19 to one position, the subsequent adhesive is conveniently collected, the collecting cavity 24 is uniformly formed in the periphery of the bottom plate 1, the discharging hole 25 is formed in one side of the collecting cavity 24, the blocking block 26 is arranged in the inner cavity of the discharging hole 25, the pull ring 27 is arranged on one side, far away from the side face of the bottom plate 1, of the bottom inner cavity of the bottom plate 1, the control block 28 is arranged in the middle of the bottom inner cavity of the bottom plate 1, the wires 29 are arranged on the upper left side and the lower right side of the control block 28, the heating plate 30 is electrically connected with the control block 28 through the wires 29, and the position of the heating plate 30 in the bottom inner cavity of the bottom plate 1 is located on one side, opposite to the inner wall of the square groove 19 and the inner wall of the collecting cavity 24, so that the temperature inside the square groove 19 and the collecting cavity 24 rises, the adhesive flowing into the inner cavities of the square groove 19 and the collecting cavity 24 is not in a sticky state, the sticky state is convenient for the sticky to penetrate through the filtering hole 20 and the discharging hole 25, and the sticky is convenient to collect.

When the device is used, after the lamination step is finished, the shape and the size of the sliding block 23 are matched with those of the inner cavity of the square chute 21, the sliding block 23 passes through the side wall of the bottom plate 1 and is electrically connected with the control panel 3 through an electric wire, so that after the lamination of the plate is finished, the control panel 3 controls one end of the sliding block 23 in the square chute 21 on the same side to move to the other end, the scraper 22 is driven to move to the other end at one end of the square chute 19, the scraper 22 scrapes off the adhesive possibly adhered to the inner wall of the square chute 19, the subsequent adhesive is conveniently collected, meanwhile, the horizontal position of one end of the collecting cavity 24 on the same side is lower than that of the other end, the discharging hole 25 is formed at one side of the collecting cavity 24, the filtering hole 20 penetrates through the square chute 19 and the collecting cavity 24, and therefore, when the device is used, the surplus adhesive generated in the lamination process of the plate flows into the square chute 19, flows into the collecting cavity 24 through the filtering hole 20, the inclined design of the collecting cavity 24, the adhesive flowing into the collecting cavity 24 gradually flows to one side of the lower side of the collecting cavity 24, the adhesive at the end of the horizontal position, and the end of the side of the collecting cavity is convenient to open the adhesive at the end of the blocking hole 25.

In the embodiment, the high-efficiency lamination auxiliary equipment for the honeycomb core fireproof plate comprises a bottom plate 1, a supporting rod 2 is arranged at the rear side of the bottom plate 1, a control panel 3 is arranged at the middle part of the supporting rod 2, a strip-shaped block 4 is uniformly arranged at the bottom of the front end of the supporting rod 2, round shafts 5 are arranged at the tops of the left side and the right side of the strip-shaped block 4, electric control expansion plates 6 are arranged at the bottoms of the round shafts 5, guide rods 7 are arranged at the front side and the rear side of the bottoms of the electric control expansion plates 6, a cylinder 8 is arranged at the middle part of the guide rods 7 at the front side and the rear side, a strip-shaped groove I9 is uniformly formed on the outer surface of the cylinder 8, an expansion strip 10 is arranged in an inner cavity of the strip-shaped groove I9, a connecting rod 11 is arranged at one side of the guide rod 7 far from the strip-shaped block 4, a strip-shaped plate 12 is arranged at the other side of the connecting rod 11, a spring 13 is arranged at the middle part of the strip-shaped plate 12, a strip-shaped groove II 14 is uniformly arranged at the left side and right side of the inner cavity of the strip-shaped plate 12, a resistance block 15 is uniformly arranged on the inner wall of the strip-shaped groove II 14, the bottom of the inner cavity of the second bar-shaped groove 14 is provided with a sliding bar 16, the bottom of the sliding bar 16 is provided with a push plate 17, one side of the push plate 17 close to the cylinder 8 is provided with a bar-shaped bar 1701, the middle part of the bottom of the bar-shaped block 4 is provided with an electric control telescopic block 18, the periphery of the bottom plate 1 is provided with square grooves 19, the bottom of the square grooves 19 is uniformly provided with filter holes 20, the outer side wall of the inner cavity of the square grooves 19 is provided with square sliding grooves 21, the inner cavity of the square grooves 19 is provided with a scraping plate 22, one side of the scraping plate 22 close to the square sliding grooves 21 is provided with a sliding block 23, the periphery of the bottom plate 1 is uniformly provided with a collecting cavity 24, the discharge holes 25 penetrate through the side wall and the collecting cavity 24 which are communicated with the periphery of the bottom plate 1, the horizontal position of one end of the collecting cavity 24 at the same side is lower than the horizontal position of the other end, the discharge holes 25 are arranged at one side of the lower side of the collecting cavity 24, the filter holes 20 penetrate the square grooves 19 and the collecting cavity 24, thus during the use, the surplus adhesive that produces in the panel lamination process flows to square groove 19 along the surface of bottom plate 1 in, again filter impurity inflow in the adhesive through filtration pore 20 and collect the intracavity 24, the slope design of chamber 24 is collected in the cooperation, the adhesive that flows into in the collection chamber 24 flows to lower one side of horizontal position gradually, after the use, can open and block 26, be convenient for the adhesive flows out from discharge hole 25 and collects, discharge hole 25 has been seted up to one side of collection chamber 24, the inner chamber of discharge hole 25 is provided with and blocks 26, one side that the side was kept away from to block 26 bottom plate 1 is provided with pull ring 27, the middle part of bottom inner chamber of bottom plate 1 is provided with control block 28, the upper left side and the right side below of control block 28 all are provided with wire 29, all be provided with hot plate 30 around the bottom inner wall of bottom plate 1, hot plate 30 passes through wire 29 and control block 28 electric connection, hot plate 30 is located the opposite one side of square groove 19 inner wall and collection chamber 24 inner wall in the position of bottom plate 1 inner chamber, thereby during operation, 30 start for square 19 and collection chamber 24 inside temperature rise so that the adhesive is difficult for the adhesive flows into in the side of collection chamber 24 and is convenient for the adhesive to solidify state, the adhesive is difficult to collect in the side of collection chamber 25.

When the scraper 22 is used, the scraper 22 moves to the other end along one end in the square groove 19 on the same side, and the scraper 22 is matched with the heating effect of the heating plate 30, so that the hot-melted adhesive flows into the collecting cavity 24 through the filter holes 20 in the moving process, and impurity dust which cannot penetrate through the filter holes 20 is scraped to one corner of the square groove 19, so that the subsequent collection and cleaning of the impurity dust are facilitated.

Working principle: when the device works, firstly, a bottom plate material needing to be subjected to lamination operation is placed on the top of a bottom plate 1, then an adhesive is uniformly smeared on the top of the bottom plate material, then the top plate material is placed on the top surface of the bottom plate material, and the space control panel 3 controls the relative number of bar blocks 4 to start working according to the length of the plate material needing to be subjected to lamination;

when the bar block 4 starts to work, the electric control telescopic block 18 at the bottom of the bar block 4 and the electric control telescopic plates 6 at the left side and the right side of the bar block 4 move towards the bottom plate 1 at the same time, in the moving process, because the control panel 3 is electrically connected with the electric control telescopic plate 6 and the electric control telescopic block 18 through electric wires, the downward moving speed of the electric control telescopic block 18 is faster than that of the electric control telescopic plate 6, so that the electric control telescopic block 18 is firstly contacted with a plate in the bottom direction, at the moment, the electric control telescopic block 18 stops moving downwards and presses the position of a fixed plate, and after the electric control telescopic plate 6 moves downwards and contacts the plate, at the moment, the electric control telescopic plate 6 does not stop moving downwards, so as to continuously extend along with the continuous extension and the movable installation of the circular shaft 5, the continuously extending electric control telescopic plate 6 gradually moves towards the two sides far away from the bar block 4, and is matched with the cylinder 8, so as to press the plate to be laminated;

in the process of laminating the plates, the top of the push plate 17 is movably arranged on the top of the inner cavity of the strip-shaped plate 12 through the spring 13, the inside of the resistance block 15 is of a telescopic structure, when the push plate is not used, the position of the strip-shaped rod 1701 is positioned at the bottom of the telescopic strip 10 in the same side direction, so that when the cylinder 8 rolls towards the side far away from the strip-shaped block 4, the left cylinder 8 is used for describing, the cylinder 8 rotates anticlockwise, the telescopic strip 10 movably arranged on the surface of the cylinder 8 in the inner cavity of the strip-shaped groove I9 continuously presses the strip-shaped rod 1701, the strip-shaped rod 1701 and the push plate 17 are continuously moved downwards, so that the bottom of the push plate 17 always contacts with the surface of the plates when the cylinder 8 moves towards the side far away from the strip-shaped block 4, the inclined surface of the bottom of the push plate 17 is matched with the inclined surface design of the bottom of the push plate 17, the surface of the plates is cleaned before the cylinder 8 rotates to press the plates, the quality of the plates is prevented from being influenced after the plates are pressed, when the cylinder 8 moves backwards and retracts, the telescopic strip 10 moves forwards, the strip-shaped rod 1701 is adjusted upwards, the push plate 17 and the slide bar 16 moves upwards in the direction, and the bottom of the push plate 16 is matched with the top of the strip 15 is not in the position and can not contact with the bottom of the plates;

when the device performs lamination work, because the heating plate 30 is electrically connected with the control block 28 through the lead 29, the position of the heating plate 30 in the bottom inner cavity of the bottom plate 1 is positioned at one side opposite to the inner wall of the square groove 19 and the inner wall of the collecting cavity 24, so that when the device works, the heating plate 30 is started, so that the temperature in the square groove 19 and the inner wall of the collecting cavity 24 rises, and the adhesive flowing into the square groove 19 and the collecting cavity 24 is melted, thereby being convenient for flowing;

after the lamination step is finished, the shape and the size of the sliding block 23 are matched with those of the inner cavity of the square chute 21, the sliding block 23 passes through the side wall of the bottom plate 1 and is electrically connected with the control panel 3 through an electric wire, so that after the lamination of the plate material is finished, the control panel 3 controls one end of the sliding block 23 in the square chute 21 on the same side to move to the other end, thereby driving the scraping plate 22 to move to the other end from one end of one side of the square chute 19, scraping off the adhesive possibly adhered to the inner wall of the square chute 19 by using the scraping plate 22, facilitating the subsequent adhesive collection, simultaneously using the horizontal position of one end of the collecting cavity 24 on the same side to be lower than that of the other end, arranging a discharging hole 25 on the lower side of the collecting cavity 24, and enabling a filter hole 20 to penetrate through the square chute 19 and the collecting cavity 24, so that when the plate material lamination process is finished, excessive adhesive generated flows into the square chute 19 through the surface of the plate material, flows into the collecting cavity 24 through the filter hole 20, is matched with the inclined design of the collecting cavity 24, the adhesive flowing into the collecting cavity 24 gradually flows to one side of the lower side of the adhesive with the horizontal position, and is convenient for discharging the adhesive from the discharging hole 25 after the use;

meanwhile, in the collecting process, the scraper 22 moves to the other end along one end in the square groove 19 at the same side, and the scraper 22 is matched with the heating effect of the heating plate 30, so that the hot-melted adhesive flows into the collecting cavity 24 through the filter holes 20 in the moving process, and impurity dust which cannot penetrate through the filter holes 20 is scraped to one corner of the square groove 19, and the subsequent collection and cleaning of the impurity dust are facilitated.

In sum, this high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED compares in general like equipment, and this device has can be according to the accurate suppression panel of actual need, the impurity dust on the self-cleaning panel surface in the suppression process, the adhesive that oozes in the automatic collection suppression process and reject the impurity dust in the adhesive after collecting, improves the reuse rate of adhesive's advantage.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a high-efficient lamination auxiliary assembly of honeycomb core PLASTIC LAMINATED, includes bottom plate (1), its characterized in that: the rear side of bottom plate (1) is provided with branch (2), the middle part of branch (2) is provided with control panel (3), the bottom of branch (2) front end evenly is provided with bar (4), the top of the left and right sides of bar (4) all is provided with round axle (5), the bottom of round axle (5) is provided with automatically controlled expansion plate (6), the front and back both sides of automatically controlled expansion plate (6) bottom all are provided with guide arm (7), the middle part of front and back both sides guide arm (7) is provided with drum (8), bar groove one (9) have evenly been seted up to the surface of drum (8), the inner chamber of bar groove one (9) is provided with flexible strip (10), one side that bar (7) kept away from bar (4) is provided with connecting rod (11), the opposite side of connecting rod (11) is provided with bar (12), the middle part of bar (12) is provided with spring (13), bar groove two (14) have all been seted up to the left and right sides of bar (12) inner chamber, the inner wall of bar groove two (14) evenly is provided with drag block (15), the bottom of bar groove two (14) inner chamber is provided with drum (16), bar (17) are close to bar (17) one side of bar (1), the middle part of bar shape piece (4) bottom is provided with automatically controlled telescopic block (18), square groove (19) have been seted up all around to bottom plate (1) bottom, filtration pore (20) have evenly been seted up to the bottom of square groove (19), square spout (21) have been seted up to the outside lateral wall of the inner chamber of square groove (19), the inner chamber of square groove (19) is provided with scraper blade (22), one side that scraper blade (22) is close to square spout (21) is provided with slider (23), collecting chamber (24) have evenly been seted up all around to bottom plate (1), discharge hole (25) have been seted up to one side of collecting chamber (24), the inner chamber of discharge hole (25) is provided with blocking piece (26), one side that blocking piece (26) kept away from bottom plate (1) side is provided with pull ring (27), the middle part of bottom plate (1) bottom inner chamber is provided with control piece (28), upper left side and right side below of control piece (28) all are provided with wire (29), all be provided with hot plate (30) all around of bottom plate (1) bottom inner wall, cylinder (8) anticlockwise rotation makes cylinder (8) surface active mounting move in bar (10) of a bar (9) and push pedal (1701) does not push down, result in bar 1701 to move.

2. A honeycomb core fire panel efficient lamination aid as defined in claim 1, wherein: the control panel (3) is electrically connected with the electric control expansion plate (6) and the electric control expansion block (18) through wires.

3. A honeycomb core fire panel efficient lamination aid as defined in claim 1, wherein: the top of push pedal (17) is through spring (13) and the top movable mounting of strip shaped plate (12) inner chamber, and is scalable structure in resistance piece (15) inside, and when not using, the position of bar (1701) is located the bottom of homonymy direction telescopic bar (10).

4. A honeycomb core fire panel efficient lamination aid as defined in claim 1, wherein: the shape and the size of the sliding block (23) are matched with those of the inner cavity of the square sliding groove (21), and the sliding block (23) penetrates through the side wall of the bottom plate (1) through a wire to be electrically connected with the control panel (3).

5. A honeycomb core fire panel efficient lamination aid as defined in claim 1, wherein: the discharging holes (25) penetrate through the side wall and the collecting cavity (24) around the communicated bottom plate (1), the horizontal position of one end of the collecting cavity (24) on the same side is lower than that of the other end, the discharging holes (25) are formed in one lower side of the collecting cavity (24), and the filtering holes (20) penetrate through the square grooves (19) and the collecting cavity (24).

6. A honeycomb core fire panel efficient lamination aid as defined in claim 1, wherein: the heating plate (30) is electrically connected with the control block (28) through a lead (29), and the position of the heating plate (30) in the bottom inner cavity of the bottom plate (1) is positioned on one side opposite to the inner wall of the square groove (19) and the inner wall of the collecting cavity (24).